Binding of matrix attachment regions to nuclear lamin is mediated by the rod domain and depends on the lamin polymerization state.

Citation:

Zhao K, Harel A, Stuurman N, Guedalia D, Gruenbaum Y. Binding of matrix attachment regions to nuclear lamin is mediated by the rod domain and depends on the lamin polymerization state. FEBS Lett. 1996;380 (1-2) :161-4.

Date Published:

1996 Feb 12

Abstract:

The nuclear matrix maintains specific interactions with genomic DNA at sites known as matrix attachment regions (M/SARs). M/SARs bind in vitro to lamin polymers. We show that the polymerized alpha-helical rod domain of lamin Dm0 provides by itself the specific binding to the ftz M/SAR. In contrast, unpolymerized rod domain does not bind specifically to this M/SAR. Non-specific binding to DNA is also observed with Dm0 containing a point mutation that impairs its ability to polymerize or with the isolated tail domain. These data suggest that the specific binding of lamins to M/SARs requires the rod domain and depends on the lamin polymerization state.

Yosef Gruenbaum Lab

Department of Genetics

Binding of matrix attachment regions to nuclear lamin is mediated by the rod domain and depends on the lamin polymerization state.

Citation:

Date Published:

Abstract:

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